Synopses & Reviews
Although they comprise one of the three fundamental branches of life, it was only the last decade that Archaea were formally recognized as a group alongside Eukaryotes and Bacteria. Bacteria-like in that they are single celled organisms that lack a nucleus and intracellular organelles, the Arachaea also share a large gene set typical of eukaryotes, for making and repairing DNA, RNA and protien. More surprisingly, they only inhabit environments typical of the extremes of early earth--hot springs, thermal ocean vents, saline lake, or oxygen deficient sediments. A breakpoint on the common evolutionary path, it is evident that the Archaea diverged early in the history of life, establishing thier importance in evolutionary sciences.
Archaea: Ancient Microbes, Extreme Environments, and the Origin of Life tells this evolving story, furthering our understanding of the microbe commonalities, and providing for evolutionary justification in the use of archaea as mechanistic model systems.
Key Features
*Provides a unique and current summary of common subcellular mechanisms in archaea and eukaryotes
* Emphasizes the use of genomics to provide a biological context for understanding archaea
* Contrasts evolutionary studies on the fossil record with those on molecular phylogeny
* Includes extensive tables, graphs, images, drawings and other illustrations
* Simplifies the interdisciplinary challenge necessary to understand the significance of archaea
Review
a rich source of current information."
BIOPHARM
Review
PRAISE FOR THE SERIES
"No laboratory scientist, field worker or technical administrator can afford to pass it up."
ASM NEWS
"The topics are well supported by an extensive bibliography and provide a rich source of current information."
BIOPHARM
Review
n extensive bibliography and provide a rich source of current information."
BIOPHARM
Synopsis
Although they comprise one of the three fundamental branches of life, it was only the last decade that Archaea were formally recognized as a group alongside Eukaryotes and Bacteria. Bacteria-like in that they are single celled organisms that lack a nucleus and intracellular organelles, the Arachaea also share a large gene set typical of eukaryotes, for making and repairing DNA, RNA and protien. More surprisingly, they only inhabit environments typical of the extremes of early earth--hot springs, thermal ocean vents, saline lake, or oxygen deficient sediments. A breakpoint on the common evolutionary path, it is evident that the Archaea diverged early in the history of life, establishing thier importance in evolutionary sciences.
Archaea: Ancient Microbes, Extreme Environments, and the Origin of Life tells this evolving story, furthering our understanding of the microbe commonalities, and providing for evolutionary justification in the use of archaea as mechanistic model systems.
Key Features
*Provides a unique and current summary of common subcellular mechanisms in archaea and eukaryotes
* Emphasizes the use of genomics to provide a biological context for understanding archaea
* Contrasts evolutionary studies on the fossil record with those on molecular phylogeny
* Includes extensive tables, graphs, images, drawings and other illustrations
* Simplifies the interdisciplinary challenge necessary to understand the significance of archaea
Synopsis
and has authored over 30 research publications and review articles. He is the past recipient of an award from the National Institutes of Environmental Health Sciences as well as past and current recipient of research project awards from the Department of Energy, Water Environment Research Foundation and the National Science Foundation. During his spare time Dr. Blum can be found conducting surveys of the biota in geothermal pools across the continental United States.
Synopsis
dation and the National Science Foundation. During his spare time Dr. Blum can be found conducting surveys of the biota in geothermal pools across the continental United States.
Synopsis
ar genetics, genomics and ecology of hyperthermophilic archaea with the support of the National Science Foundation. He obtained his doctoral degree in microbiology from the University of California-Davis with postdoctoral training at the University of California-Berkely and Stanford Medical School. He is currently on the editorial board of several journals and has authored over 30 research publications and review articles. He is the past recipient of an award from the National Institutes of Environmental Health Sciences as well as past and current recipient of research project awards from the Department of Energy, Water Environment Research Foundation and the National Science Foundation. During his spare time Dr. Blum can be found conducting surveys of the biota in geothermal pools across the continental United States.
Synopsis
of Energy, Water Environment Research Foundation and the National Science Foundation. During his spare time Dr. Blum can be found conducting surveys of the biota in geothermal pools across the continental United States.
Synopsis
veral journals and has authored over 30 research publications and review articles. He is the past recipient of an award from the National Institutes of Environmental Health Sciences as well as past and current recipient of research project awards from the Department of Energy, Water Environment Research Foundation and the National Science Foundation. During his spare time Dr. Blum can be found conducting surveys of the biota in geothermal pools across the continental United States.